par Goswami, Aruna;Choplin, Arthur 
;Goswami, Partha Pratim;Siess, Lionel ;Goriely, Stéphane
Référence Galaxies, 14, 3, page (37)
Publication Publié, 2026-06
;Goswami, Partha Pratim;Siess, Lionel ;Goriely, Stéphane Référence Galaxies, 14, 3, page (37)
Publication Publié, 2026-06
Article révisé par les pairs
| Résumé : | The chemical composition of stellar atmospheres provides a valuable window into the complex processes of stellar nucleosynthesis. Among chemically peculiar cool stars, many objects are the products of mass transfer in binary systems, including most carbon stars, CH stars, and CEMP-s and CEMP-r/s stars. Accurate and precise determinations of heavy-element abundances in these systems serve as powerful tracers of neutron-capture nucleosynthesis operating in the slow (s) and intermediate (i) regimes. Such measurements also place important constraints on binary evolution, mass-transfer mechanisms, the onset of early s-process enrichment, and the astrophysical sites and production pathways associated with the i-process. In this work, we investigate the origin of the extremely metal-poor star HE 1005-1439, which has previously been suggested to exhibit a surface composition enriched by a combination of s- and i-process nucleosynthesis. Using new multi-zone, detailed AGB models for both the s- and i-processes, we find that a mixed i+s scenario provides a plausible explanation for the observed abundance pattern of HE 1005-1439, although a pure i-process AGB model yields an almost equally satisfactory fit. |
